DE102008039142A1 - Sealing plug for tilting converters - Google Patents

Abstract

For closing the tap hole 3 of a tiltable converter 2 is a closure plug 1, which consists of arranged between the upper Verformplatte 19 and the lower Verformplatte 20 refractory material 10. This refractory material 10 consists of binding clay, water, oil and other components, especially 10-30 wt .-% mineral glass hollow spheres, which are made of recycled glass and in the form of so-called blown glass, which has a surface which is suitable to bind large amounts of moisture. As a result, the stopper 1 retains its necessary stability over a longer period of time and can be easily deformed in the tapping hole 3 even after prolonged storage times, so that it settles against the wall 28. The glass hollow spheres 11, 12, 13, 14 further lead to a significant reduction in weight of the entire sealing plug 1.

Description

The The invention relates to a sealing plug for the taphole a tiltable converter from outside the converter can be inserted into the tap hole up to the converter inside and there is fixable, then about the liquid Steel washed out with this together again from the taphole and made of refractory material with clay components, binders, Water and mineral oil exists. It also concerns the invention a method for producing a for the Temporarily closing the tap hole of a tiltable converter closure plug to be used consisting of an audio component, Binder, water and mineral oil and additives Refractory material.

Tiltable converters are equipped with an outlet opening or a taphole that allows the converter wall to transfer the liquid steel into the tapping pan or the transport vessel when the converter is tilted. To empty the converter is tilted so that the steel can flow through the tap hole. Since on the liquid steel always specifically lighter slag of different viscosity floats, this forcibly passes during tilting first in the tap hole and thus in more or less large amount in the tapping pan and the transport container. For many subsequent metallurgical processes, the presence of oxygen rich and often phosphorus or sulfur enriched slag is of considerable disadvantage. Therefore, one has successfully developed a stopper ( EP 0 635 071 ), which consists of a plastic material, introduced into the tap hole and then can be deformed between two Verformplatten so that it automatically remains within the tap hole. The upper Verformplatte is funnel-shaped and merges into a piece of pipe that extends to serving as an abutment for a deforming lower Verformplatte. The deforming device has a pulling claw, which is passed through the pipe section and then with appropriate force can be pulled back toward lower Verformplatte so as to deform the plastic region of the sealing plug between the two Verformplatten accordingly. The plastically formed refractory material essentially comprises binding clay, alumina silicates, water, plasticizers, binders and additives. After DE 198 48 004 A1 For example, a not inconsiderable amount of hydrocarbon compounds in the form of styrofoam balls as an additive is added to the refractory material to reduce the weight of the sealing plug once and on the other hand to achieve a better and more uniform deformation of the sealing plug. The disadvantage here, however, is that the Styrofoam, which does not absorb water, tends to have a destabilizing effect, so that in particular the storage time of such a sealing stopper is limited. Another disadvantage is that the refractory material due to the Styrofoam balls is not consistently the same plastic effect, which adversely affects the process.

Of the The invention is therefore based on the object, a weight lightweight sealing plug with high storage stability too create.

The The object is achieved according to the invention that the refractory material mixed with mineral glass bubbles is formed, which are limited receiving water.

By a corresponding supplement to the refractory material and the abandonment of the slightly destabilizing styrofoam grains or -balls, obtained with admixture corresponding Mineral glass hollow spheres an advantageous elastic material, the also remains stable in the long term. As the glass bubbles, the have a corresponding surface, absorb water and keep this targeted, develops the water balance of the finished Sealing plug very positive. The shelf life is increased by about 100%, allowing storage of several months easily possible.

To an expedient embodiment of the invention provided that the mineral glass bubbles a diameter of 0.2-5 mm, preferably 0.5-1 mm. Such glass hollow spheres are advantageously stable, can be well mix in well with the sound components, which they provide with water during storage, so that the sound components retain their flexibility. The mineral glass bubbles lead as from the task required, to a significant weight reduction and indeed at the required relatively small diameters. If you replace the Proportion of styrofoam balls through glass bubbles, so the total weight decreases of the sealing plug by far more than 20%.

Approximately exactly 20% weight reduction can be achieved when the volume fraction of mineral glass bubbles 5-40%, preferably 10-30% of the entire refractory material. Especially with the 10-30%, the plug has the necessary stability and just the longer storage possibility, so that overall it is much better with its reduced weight to handle and store and also to use.

It has been pointed out above that the glass hollow spheres receiving a limited amount of water have a special outer surface This is the case in particular when the mineral glass hollow spheres are expanded glass spheres. This expanded glass does not receive a smooth surface during manufacture, but rather the desired rough surface into which water particles can advantageously be stored.

Especially it is advantageous if the mineral glass bubbles from recycled glass produced expanded glass, because it is not only targeted the blown glass gets the desired training, but also the price can be kept low, which proves to be advantageous when selling the sealing plug.

The Taphole receives not least by the flow of liquid and thus hot steel a different one Shape. It has proved particularly useful proven, consisting of the refractory material with the mineral glass bubbles To form a stopper into a cylinder, then after insertion into the tap hole against the walls of this tap hole can be pressed. The cylindrical shape actually fits optimally to any shape of the tap hole, even if this in the course of Tool life the shape changed a bit.

There, where the shape of the tap hole is funnel-shaped, whether in the direction of outflow or enema, it is advantageous if the Plug having the shape of a truncated cone. He can then in the corresponding direction in the funnel-shaped tap hole introduced and then fixed there by pressing.

at the known plug has the upper deforming plate of in the beginning a funnel-shaped formation, d. H. she goes according to the pipe section. After a Development according to the invention is provided, that the plug has an internal bore and an upper and lower deforming plate has, wherein the thickness of the upper deformation plate, which merges into the inner bore is formed, increasingly running towards the inner bore is. Due to this special shape of the upper deformation plate is achieved that, although initially the entire plug or the upper side moves against the lower deformation plate, but with increasing Pressure leads the middle part of the upper deformation plate, so that the appropriate funnel arises. Advantage is that the plug itself first with moving the upper deformation plate is pressurized and not already when putting a corresponding self-formed deforming plate.

To a further embodiment is provided that the upper deformation plate made of several metal rings of different flexibility or stability is composed, with the flexibility the metal rings to the outer ring decreasing selected is. With such a design is also achieved that a funnel forms in the middle, which causes the leakage of the liquid Steel is to favor. Here, the deformed from metal rings existing upper deformation plate in the region of the pipe section leading, while the outer ring remains more stable or ultimately not deformed and thus for it Ensures that the entire plug deforms accordingly moved against the hole wall and then sets.

The corresponding deformation or the compression of the plug achieved one is particularly good when the upper deforming plate and one in the inner bore inserted pipe piece form a unit, wherein the lower deformation plate is designed to serve as an abutment. In such a training, it is possible practically on the pipe section to pull, so the upper deformation plate to move towards the lower deformation plate while keeping in between deform the underlying refractory material body. Whether this is more appropriate is or as before with a hindurchschiebbaren by the pipe section It can be left undecided, at any rate also the desired setting of the plug in the taphole to reach. In this embodiment, the possibility is further given either the top deforming plate as before the funnel shape or to work with the metal rings or the different ones thick deformation plates. In order for the slag on the inside Edge to leave little space, the upper deformation plate is possible finish with the edge. Therefore should be possible the lower deforming plate be movable.

According to the preceding device claims, a plug of increased stability and reduced dead weight is protected. In such a sealing plug, the refractory material to be disposed between the upper and lower deforming plates is made
10-30% by weight of mineral glass bubbles consisting of expanded glass,
20-40% by weight of selected quality cinchona
20-40% by weight of alumina silicate,
1-20% by weight of water
5-20% by weight of mineral oil,
0.5-3 wt% plasticizer,
0.1-2% by weight of liquefier,
0.1-2% by weight of temporary binders,
0.1-5% by weight of permanent binders
mixed together. In such a composite refractory material, it has been found that this exactly meets the desired requirements, namely having a reduced weight and beyond good and evenly deformable and this is also to store for long periods. The used mi Neral glass hollow spheres made of expanded glass can absorb a large amount of moisture, ie water, but possibly also other liquids, in order to provide the necessary flexibility over long periods of time within the refractory material or the stopper produced therefrom. The described mixture can be varied within the limits mentioned, depending on which of the target directions is the more important.

at the production of such a closure plug, the the temporary closing of the tapping hole of a tiltable Converter, the individual components, d. H. the clay components, binders, water and mineral oil as well the different additives evenly a refractory material are mixed together. It sees the Invention that mineral glass hollow spheres as additives used before mixing with the other mixture ingredients be watered and thereby up to 100% of its own weight bind to water. Earlier it has already been pointed out that these hollow glass spheres are a special kind of Hollow glass balls is, namely such mineral with a special surface that is suitable to water to bind or other liquids. in this connection it has proven to be particularly useful that produced as mineral hollow spheres from glass blown glass beads be used. These inflatable glass balls have a rough Surface that is suitable, appropriate amounts of moisture, d. H. especially water, to bind and this also after the mixing in the other ingredients as long keep until these other ingredients need the moisture and then pick up from the blown glass balls. In particular, the binder clay and the toner silicates remain so elastic or yielding that they will last even longer or storage times can still be processed properly.

A particularly good to be stored plug can process according to it be achieved that the mixture formed after the mixing process, here or afterwards with the deforming plates and pipe section provided and then packed tightly in foil all around. This means, that first of all the entire refractory including the mineral glass bubbles made of expanded glass is made, this then in the appropriate form, for example that of a cylinder or that of a truncated cone is then provided with pipe section and Verformplatten to be and sealed with foil all around. Such a made Sealing plug is ready to ship and can be ordered from the manufacturer or at the user for longer periods, d. H. be safely stored for at least half a year, to then be used in the converter. Even after this long Storage time, he is perfectly deformable, and it is theoretically synonymous possible, the actual plug without the upper deformation plate and to ship the pipe section and these parts only briefly prior to use, regardless of the stopper itself or the stopper body always to process properly. He has the optimal stability, has a significantly reduced dead weight, so it can therefore can also be traded better and can because of its good manageability exactly brought into the end of the tap hole and fixed there so that the proportion of possibly settling slag can be reduced to the minimum.

The Invention is characterized in particular by the fact that a sealing plug and a method of making this plug is provided, the one stopper for use in tiltable Provide converters, therefore optimal because it works over long periods of time has the necessary plasticizability, in its entirety Dimension the necessary moisture and thus deformability reserves and due to its lower weight even better is processed as the styrofoam-enriched sealing plug of the prior art. These special characteristics and properties prove the sealing plug according to the invention prove to be particularly beneficial because they have the opportunity give these plugs also over large Distances and thus corresponding periods around to send the world. They are not just because of their stable Optimum shape during transport but also during your storage by the user. They stand then to the user exactly in the given form when used for Available and then still have the necessary deformability on, so they always safe and even in can be positioned the respective tap hole.

Further Details and advantages of the subject invention arise from the following description of the accompanying drawing, in a preferred embodiment with the necessary details is shown. Show it:

1 a converter during the outflow of the liquid steel through the tapping hole provided in the converter,

2 a section through the converter inner region at the tap hole with inserted but not yet deformed sealing plug,

3 an enlarged reproduced Sealing plug,

3a - 3c differently shaped upper deformation plates in section,

4 a taphole in section with a cylindrical cross-section and a cylindrical plug,

5 a taphole in the inwardly directed funnel shape with conical plug,

6 a taphole in section with outwardly directed funnel shape with inserted cylindrical plug,

7 a tap hole in the X-shaped section, wherein a conical plug is reproduced and

8th the top view of the upper, composed of several rings Verformplatte.

1 gives a converter 2 in tilt position again, it being clear that through the tap hole 3 the liquid steel 6 can flow out in a stream. On the in the converter 2 located liquid slag 6 is a thick layer of slag 7 on, which can not flow in this situation just with.

The taphole 3 extends from the outer wall 4 to the converter inside 5 and is at least cylindrically shaped here. The liquid steel 6 flows here in a dolly 8th and can then be moved to the next processing step. The sealing plug, not shown here 1 is in this position of the converter 2 washed out for a long time and is located in the trolley if you will 8th The amount is so small that it does not matter.

2 gives a cut through the wall of the converter 2 again, being in the taphole 3 here at the stopper 1 is introduced. This stopper 1 consists of refractory material 10 , which is enriched with glass bubbles, as will be made clear later. It has the shape of a cylinder 15 on and from one into the inner bore 18 introduced pipe section 21 durchörtert, so a setting device 7 can be pushed through with the upper pulling claws 22 to the upper deforming plate in the position shown 19 towards lower deformation plate 20 to influence and bring to the wall 28 the tap hole 3 to press. After deforming the plug, the pulling claw can 22 by deactivating the corresponding elements again through the pipe section 21 be removed, so then the stopper the tap hole 3 until it passes through the liquid steel 6 is washed out.

3 shows a sealing plug 1 consisting of a refractory material 10 , In this refractory material 10 are 10-30 wt.% Glass bubbles 11 . 12 . 13 . 14 mixed, which are made of recycled glass and produce a blown glass having a roughened surface in which moisture, ie above all water can be deposited. Again, the stopper points 1 the shape of a cylinder 15 on. The inner bore is recognizable 18 into which the pipe section 21 is inserted and so the upper deformation plate 19 with the lower deformation plate 20 combines. Indicated is that the upper deforming plate 19 from different metal rings 23 . 24 . 25 is composed, with their flexibility to the outer ring 26 decreases, so when pulling on the pipe section 21 First of all, the inner metal ring 25 begins to deform and last of all the outer metal ring 23 , This achieves the formation of a funnel, which accounts for the leakage of the liquid steel 6 later is beneficial.

3a . 3b and 3c show different material formations for the upper deformation plate 19 , where after 3a the thickness decreases from the inside to the outside, so that thereby also when influencing the upper deformation plate 19 gives a funnel shape. The same can be achieved with the training 3b , with the metal rings 23 . 24 . 25 different flexibility. To 3c are different materials to a corresponding upper deformation plate 19 put together, which also make it possible that the upper deformation plate 19 first deformed in the middle and then only in the area of the outer ring 26 or vice versa.

With the help of 4 to 7 It is shown that with the help of the sealing plug according to the invention 1 the possibility exists, this to the shape of the tap hole 3 adapt. To 4 is the tap hole 3 consistently formed the same and thus gives the shape of a cylinder again. In this appropriately trained tap hole 3 will be a stopper 1 in the form of a cylinder 15 introduced. After the 5 and 7 lends itself to the shape of the stopper 1 on, this the shape of a truncated cone 16 . 16 ' to give it optimal against the wall 28 the tap hole 3 can be fixed. The same applies to 6 where the cylindrical shape is beneficial to the sealing plug 1 also safe in the tap hole 3 to be able to insert.

8th finally shows an upper deformation plate 19 made up of differently shaped metal rings 23 . 24 . 25 is composed and so ensures that from the outer wreath 26 her uniform deformation of the sealing plug 1 possible is, even if as desired center of the hopper is given by the liquid steel 6 then it can drain favorably at the later procedure.

All mentioned features, including those to be taken from the drawings alone, are considered alone and in combination as essential to the invention.

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• EP 0635071 [0002]
• - DE 19848004 A1 [0002]

Claims (14)

Stopper for the taphole ( 3 ) of a tiltable converter ( 2 ) from outside the converter ( 2 ) to the converter inside ( 5 ) in the taphole ( 3 ) and fixable there, and then over the liquid steel ( 6 ) with this together again from the taphole ( 3 ) and the refractory material ( 10 ) consists of clay components, binders, water and mineral oil, characterized in that the refractory material ( 10 ) with mineral glass bubbles ( 11 . 12 . 13 . 14 ) is mixed, which are formed limited receiving water. Closure stopper according to claim 1, characterized in that the mineral glass hollow spheres ( 11 . 12 . 13 . 14 ) have a diameter of 0.2-5 mm, preferably 0.5-1 mm. Closure stopper according to one of the preceding claims, characterized in that the volume fraction of mineral glass bubbles ( 11 . 12 . 13 . 14 ) 5-40%, preferably 10-30% of the total refractory material ( 10 ) is. Closure stopper according to one of the preceding claims, characterized in that the mineral glass bubbles ( 11 . 12 . 13 . 14 ) Are blown glass balls. Closure stopper according to one of the preceding claims, characterized in that the mineral glass bubbles ( 11 . 12 . 13 . 14 ) consist of blown glass made of recycled glass. Closure stopper according to one of the preceding claims, characterized in that the refractory material ( 10 ) with the mineral glass bubbles ( 11 . 12 . 13 . 14 ) existing plugs ( 1 ) to a cylinder ( 15 ) is shaped. Closing stopper according to one of the preceding claims, characterized in that the stopper ( 1 ) the shape of a truncated cone ( 16 ) having. Closing stopper according to one of the preceding claims, characterized in that the stopper ( 1 ) an inner bore ( 18 ) and an upper and lower deforming plate ( 19 . 20 ), wherein the thickness of the upper deforming plate ( 19 ), which into the inner bore ( 18 ) is designed to transition, to the inner bore ( 18 ) increasingly executed. Closure stopper according to one of the preceding claims, characterized in that the upper deforming plate ( 19 ) of several metal rings ( 23 . 24 . 25 ) of different flexibility or stability, the flexibility of the metal rings ( 23 . 24 . 25 ) to the outer wreath ( 26 ) decreasing is selected. Closure stopper according to one of the preceding claims, characterized in that the upper deforming plate ( 19 ) and into the inner bore ( 18 ) inserted pipe section ( 21 ) form a unit, wherein the lower deforming plate ( 20 ) is designed as an abutment. Closure stopper according to claim 1, characterized in that the stopper ( 1 ) or the refractory material ( 10 ) from 10-30% by weight of mineral glass bubbles consisting of expanded glass, 20-40% by weight of selected high-grade binder, 20-40% by weight of alumina silicate, 1-20% by weight of water 5-20% by weight of mineral oil, 0, 5-3% by weight of plasticizer, 0.1-2% by weight of plasticizer, 0.1-2% by weight of temporary binder, 0.1-5% by weight of permanent binder mixed together. Method of making one for the Temporarily closing the tap hole of a tiltable Converter to be used stopper consisting of a Clay component, binders, water and mineral oil as well as additives having refractory material, characterized in that as Additives mineral glass hollow spheres are used, the watered with the other components of the mixture before mixing and bind up to 100% of their own weight of water. Method according to claim 12, characterized in that that produced as mineral glass bubbles from glass blown glass balls be used. Method according to claim 12, characterized in that that the mixture is molded after the mixing process, either or both provided with the deforming plates and pipe section and then is packed tightly around in foil.